Compound heterozygote mutations in SPG7 in a family with adult-onset primary lateral sclerosis.

Yi Yang Lei Zhang David R Lynch Thomas Lukas Kreshnik Ahmeti Patrick M A Sleiman Eanna Ryan Kimberly A Schadt Jordan H Newman Han-Xiang Deng Nailah Siddique Teepu Siddique

Neurol Genet

Department of Histology and Embryology (Y.Y., L.Z.), Hebei Medical University, China; Division of Neuromuscular Medicine (Y.Y., K.A., E.R., J.H.N., H.-X.D., N.S., T.S.), Davee Department of Neurology and Clinical Neurosciences and Department of Pharmacology (T.J.L.), Northwestern University Feinberg School of Medicine, Chicago, IL; Department of Neurology (D.L.) and Department of Pediatrics (P.M.A.S.), the Perelman School of Medicine, University of Pennsylvania, Philadelphia; and Department of Neurology (K.A.S.) and The Center for Applied Genomics (P.M.A.S.), The Children's Hospital of Philadelphia, PA.

Published: April 2016

The study aimed to find the genetic cause of adult-onset primary lateral sclerosis (PLS) in a family with five affected individuals.
Whole-exome sequencing revealed two specific mutations (L695P and I743T) in the SPG7 gene that are linked to the disease, showing an autosomal recessive inheritance pattern.
The findings suggest that these mutations impact mitochondrial function, highlighting the need for genetic testing for SPG7 in familial cases of PLS.

Objective: To identify the genetic defect for adult-onset primary lateral sclerosis (PLS) in a family with 5 patients.

Methods: Whole-exome sequencing was performed to identify the shared genetic variants in 3 affected members in a PLS family with 5 affected individuals. Sanger sequencing was used for validation of the variants and for cosegregation analysis. Mitochondrial activity for both patients and unaffected siblings was measured using a SeaHorse metabolic analyzer.

Results: Whole-exome sequencing and subsequent cosegregation analysis demonstrated that compound heterozygous missense variants L695P and I743T in SPG7 were the only mutations cosegregating with the disease in an autosomal recessive fashion in this family. The parents and siblings are genetically heterozygous and clinically unaffected. Functional studies suggested that the PLS-associated SPG7 mutants affect mitochondrial function when glucose is reduced.

Conclusions: Compound heterozygote mutations in SPG7 are associated with adult-onset PLS, extending the spectrum of SPG7-linked neurologic diseases. Patients with the PLS phenotype should have genetic testing for paraplegin, especially when the condition is familial.

Download full-text PDF	Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4830188	PMC
http://dx.doi.org/10.1212/NXG.0000000000000060	DOI Listing

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